A Certificate Authority verifies our identity when the SSL Certificate is issued.

How Encryption Works

Imagine sending mail through the postal system in a clear envelope. Anyone with access to it can see the data. If it looks valuable, they might take it or change it. An SSL Certificate establishes a private communication channel enabling encryption of the data during transmission. Encryption scrambles the data, essentially creating an envelope for message privacy. Each SSL Certificate consists of a public key and a private key. The public key is used to encrypt information and the private key is used to decipher it. When a Web browser points to a secured domain, a Secure Sockets Layer handshake authenticates the server (Web site) and the client (Web browser). An encryption method is established with a unique session key and secure transmission can begin. True 128-bit SSL Certificates enable every site visitor to experience the strongest SSL encryption available to them.

How Authentication Works

Imagine receiving an envelope with no return address and a form asking for your bank account number. Every SSL Certificate is created for a particular server in a specific domain for a verified business entity. When the SSL handshake occurs, the browser requires authentication information from the server. By clicking the closed padlock in the browser window or certain SSL trust marks (such as the VeriSign Secured? Seal), the Web site visitor sees the authenticated organization name. In high-security browsers, the authenticated organization name is prominently displayed and the address bar turns green when an Extended Validation SSL Certificate is detected. If the information does not match or the certificate has expired, the browser displays an error message or warning.